#!/usr/bin/env python3
"""
Script to parse StorCLI's JSON output and expose
MegaRAID health as Prometheus metrics.

Tested against StorCLI 'Ver 1.14.12 Nov 25, 2014'.

StorCLI reference manual:
http://docs.avagotech.com/docs/12352476

Advanced Software Options (ASO) not exposed as metrics currently.

JSON key abbreviations used by StorCLI are documented in the standard command
output, i.e.  when you omit the trailing 'J' from the command.
"""

from __future__ import print_function
import argparse
import json
import os
import subprocess
import shlex
from dateutil.parser import parse
import collections
from enum import IntEnum

DESCRIPTION = """Parses StorCLI's JSON output and exposes MegaRAID health as
    Prometheus metrics."""
VERSION = '0.0.2'

storcli_path = ''
metric_prefix = 'megaraid_'
metric_list = {}
metric_list = collections.defaultdict(list)


class VD_State(IntEnum):
    Optl = 0  # Optimal
    Dgrd = 1  # Degraded
    Pdgd = 2  # Partially Degraded
    OfLn = 3  # Offline
    Rec = 4  # Recovery
    Cac = 5  # CacheCade


def main(args):
    """ main """
    global storcli_path
    storcli_path = args.storcli_path
    data = json.loads(get_storcli_json('/cALL show all J'))

    # All the information is collected underneath the Controllers key
    data = data['Controllers']

    # try:
    #     overview = status['Response Data']['System Overview']
    # except KeyError:
    #     pass

    for controller in data:
        response = controller['Response Data']
        if response['Version']['Driver Name'] == 'megaraid_sas':
            handle_megaraid_controller(response)
        elif response['Version']['Driver Name'] == 'mpt3sas':
            handle_sas_controller(response)

    # print_dict_to_exporter({'controller_info': [1]}, controller_info_list)
    # print_dict_to_exporter({'virtual_disk_info': [1]}, vd_info_list)
    # print_dict_to_exporter({'physical_disk_info': [1]}, pd_info_list)
    # print_all_metrics(vd_metric_list)
    print_all_metrics(metric_list)


def handle_sas_controller(response):
    pass


def handle_megaraid_controller(response):
    controller_index = response['Basics']['Controller']
    baselabel = 'controller="{}"'.format(controller_index)

    controller_info_label = baselabel + ',model="{}",serial="{}",fwversion="{}"'.format(
        response['Basics']['Model'],
        response['Basics']['Serial Number'],
        response['Version']['Firmware Version'],
    )
    add_metric('controller_info', controller_info_label, 1)

    add_metric('battery_backup_healthy', baselabel, int(response['Status']['BBU Status'] == 0))
    add_metric('degraded', baselabel, int(response['Status']['Controller Status'] == 'Degraded'))
    add_metric('failed', baselabel, int(response['Status']['Controller Status'] == 'Failed'))
    add_metric('healthy', baselabel, int(response['Status']['Controller Status'] == 'Optimal'))
    add_metric('drive_groups', baselabel, response['Drive Groups'])
    add_metric('virtual_drives', baselabel, response['Virtual Drives'])
    add_metric('physical_drives', baselabel, response['Physical Drives'])
    add_metric('ports', baselabel, response['HwCfg']['Backend Port Count'])
    add_metric('scheduled_patrol_read', baselabel,
               int('hrs' in response['Scheduled Tasks']['Patrol Read Reoccurrence']))

    time_difference_seconds = -1
    system_time = parse(response['Basics'].get('Current System Date/time'))
    controller_time = parse(response['Basics'].get('Current Controller Date/Time'))
    if system_time and controller_time:
        time_difference_seconds = abs(system_time - controller_time).seconds
        add_metric('time_difference', baselabel, time_difference_seconds)

    for virtual_drive in response['VD LIST']:
        vd_position = virtual_drive.get('DG/VD')
        drive_group, volume_group = -1, -1
        if vd_position:
            drive_group = vd_position.split('/')[0]
            volume_group = vd_position.split('/')[1]
        vd_baselabel = 'controller="{}",DG="{}",VG="{}"'.format(controller_index, drive_group,
                                                                volume_group)
        vd_info_label = vd_baselabel + ',name="{}",cache="{}",type="{}"'.format(
            virtual_drive.get('Name'), virtual_drive.get('Cache'), virtual_drive.get('TYPE'))
        add_metric('vd_info', vd_info_label, 1)
        add_metric('vd_status', vd_baselabel, int(VD_State[virtual_drive.get('State')]))

    if response['Physical Drives'] > 0:
        data = json.loads(get_storcli_json('/cALL/eALL/sALL show all J'))
        drive_info = data['Controllers'][controller_index]['Response Data']
    for physical_drive in response['PD LIST']:
        enclosure = physical_drive.get('EID:Slt').split(':')[0]
        slot = physical_drive.get('EID:Slt').split(':')[1]

        pd_baselabel = 'controller="{}",enclosure="{}",slot="{}"'.format(
            controller_index, enclosure, slot)
        pd_info_label = pd_baselabel + ',disk_id="{}",interface="{}",media="{}",model="{}"'.format(
            physical_drive.get('DID'), physical_drive.get('Intf'), physical_drive.get('Med'),
            physical_drive.get('Model').strip())

        drive_identifier = 'Drive /c' + str(controller_index) + '/e' + str(enclosure) + '/s' + str(
            slot)
        try:
            info = drive_info[drive_identifier + ' - Detailed Information']
            state = info[drive_identifier + ' State']
            attributes = info[drive_identifier + ' Device attributes']
            settings = info[drive_identifier + ' Policies/Settings']

            add_metric('pd_shield_counter', pd_baselabel, state['Shield Counter'])
            add_metric('pd_media_errors_total', pd_baselabel, state['Media Error Count'])
            add_metric('pd_other_errors_total', pd_baselabel, state['Other Error Count'])
            add_metric('pd_predictive_errors_total', pd_baselabel,
                       state['Predictive Failure Count'])
            add_metric('pd_smart_alerted', pd_baselabel,
                       int(state['S.M.A.R.T alert flagged by drive'] == 'Yes'))
            add_metric('pd_link_speed_gbps', pd_baselabel, attributes['Link Speed'].split('.')[0])
            add_metric('pd_device_speed_gbps', pd_baselabel,
                       attributes['Device Speed'].split('.')[0])
            add_metric('pd_commissioned_spare', pd_baselabel,
                       int(settings['Commissioned Spare'] == 'Yes'))
            add_metric('pd_emergency_spare', pd_baselabel,
                       int(settings['Emergency Spare'] == 'Yes'))
            pd_info_label += ',firmware="{}"'.format(attributes['Firmware Revision'])
        except KeyError:
            pass
        add_metric('pd_info', pd_info_label, 1)


def add_metric(name, labels, value):
    global metric_list
    metric_list[name].append({
        'labels': labels,
        'value': value,
    })


def print_all_metrics(metrics):
    for metric, measurements in metrics.items():
        print('# HELP {}{} MegaRAID {}'.format(metric_prefix, metric, metric.replace('_', ' ')))
        print('# TYPE {}{} gauge'.format(metric_prefix, metric))
        for measurement in measurements:
            print('{}{}{} {}'.format(metric_prefix, metric, '{' + measurement['labels'] + '}',
                                     measurement['value']))


def get_storcli_json(storcli_args):
    """Get storcli output in JSON format."""
    # Check if storcli is installed and executable
    if not (os.path.isfile(storcli_path) and os.access(storcli_path, os.X_OK)):
        SystemExit(1)
    storcli_cmd = shlex.split(storcli_path + ' ' + storcli_args)
    proc = subprocess.Popen(
        storcli_cmd, shell=False, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
    output_json = proc.communicate()[0]

    return output_json.decode("utf-8")


if __name__ == "__main__":
    PARSER = argparse.ArgumentParser(
        description=DESCRIPTION, formatter_class=argparse.ArgumentDefaultsHelpFormatter)
    PARSER.add_argument(
        '--storcli_path', default='/opt/MegaRAID/storcli/storcli64', help='path to StorCLi binary')
    PARSER.add_argument('--version', action='version', version='%(prog)s {}'.format(VERSION))
    ARGS = PARSER.parse_args()

    main(ARGS)
